EP3074261B1 - Active differential and motor vehicle - Google Patents
Active differential and motor vehicle Download PDFInfo
- Publication number
- EP3074261B1 EP3074261B1 EP14803043.0A EP14803043A EP3074261B1 EP 3074261 B1 EP3074261 B1 EP 3074261B1 EP 14803043 A EP14803043 A EP 14803043A EP 3074261 B1 EP3074261 B1 EP 3074261B1
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- Prior art keywords
- coupling
- planetary gear
- differential
- motor
- distributor
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- 239000011553 magnetic fluid Substances 0.000 description 1
- 239000006247 magnetic powder Substances 0.000 description 1
- 238000010297 mechanical methods and process Methods 0.000 description 1
- 230000005226 mechanical processes and functions Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H59/00—Control inputs to control units of change-speed-, or reversing-gearings for conveying rotary motion
- F16H59/36—Inputs being a function of speed
- F16H59/46—Inputs being a function of speed dependent on a comparison between speeds
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K23/00—Arrangement or mounting of control devices for vehicle transmissions, or parts thereof, not otherwise provided for
- B60K23/04—Arrangement or mounting of control devices for vehicle transmissions, or parts thereof, not otherwise provided for for differential gearing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K17/00—Arrangement or mounting of transmissions in vehicles
- B60K17/04—Arrangement or mounting of transmissions in vehicles characterised by arrangement, location, or kind of gearing
- B60K17/16—Arrangement or mounting of transmissions in vehicles characterised by arrangement, location, or kind of gearing of differential gearing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W10/00—Conjoint control of vehicle sub-units of different type or different function
- B60W10/02—Conjoint control of vehicle sub-units of different type or different function including control of driveline clutches
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W10/00—Conjoint control of vehicle sub-units of different type or different function
- B60W10/02—Conjoint control of vehicle sub-units of different type or different function including control of driveline clutches
- B60W10/023—Fluid clutches
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W10/00—Conjoint control of vehicle sub-units of different type or different function
- B60W10/12—Conjoint control of vehicle sub-units of different type or different function including control of differentials
- B60W10/16—Axle differentials, e.g. for dividing torque between left and right wheels
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W20/00—Control systems specially adapted for hybrid vehicles
- B60W20/20—Control strategies involving selection of hybrid configuration, e.g. selection between series or parallel configuration
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W30/00—Purposes of road vehicle drive control systems not related to the control of a particular sub-unit, e.g. of systems using conjoint control of vehicle sub-units
- B60W30/18—Propelling the vehicle
- B60W30/18009—Propelling the vehicle related to particular drive situations
- B60W30/18145—Cornering
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H48/00—Differential gearings
- F16H48/06—Differential gearings with gears having orbital motion
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H48/00—Differential gearings
- F16H48/36—Differential gearings characterised by intentionally generating speed difference between outputs
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K23/00—Arrangement or mounting of control devices for vehicle transmissions, or parts thereof, not otherwise provided for
- B60K23/04—Arrangement or mounting of control devices for vehicle transmissions, or parts thereof, not otherwise provided for for differential gearing
- B60K2023/043—Control means for varying left-right torque distribution, e.g. torque vectoring
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W2520/00—Input parameters relating to overall vehicle dynamics
- B60W2520/26—Wheel slip
- B60W2520/266—Slip values between left and right wheel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W2520/00—Input parameters relating to overall vehicle dynamics
- B60W2520/28—Wheel speed
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60Y—INDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
- B60Y2300/00—Purposes or special features of road vehicle drive control systems
- B60Y2300/80—Control of differentials
- B60Y2300/82—Torque vectoring
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60Y—INDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
- B60Y2400/00—Special features of vehicle units
- B60Y2400/40—Actuators for moving a controlled member
- B60Y2400/404—Electro-magnetic actuators, e.g. with an electromagnet not rotating for moving a clutching member
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60Y—INDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
- B60Y2400/00—Special features of vehicle units
- B60Y2400/40—Actuators for moving a controlled member
- B60Y2400/41—Mechanical transmissions for actuators
- B60Y2400/416—Centrifugal actuators
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60Y—INDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
- B60Y2400/00—Special features of vehicle units
- B60Y2400/42—Clutches or brakes
- B60Y2400/425—Viscous couplings
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H48/00—Differential gearings
- F16H48/20—Arrangements for suppressing or influencing the differential action, e.g. locking devices
- F16H2048/204—Control of arrangements for suppressing differential actions
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H48/00—Differential gearings
- F16H48/20—Arrangements for suppressing or influencing the differential action, e.g. locking devices
- F16H48/30—Arrangements for suppressing or influencing the differential action, e.g. locking devices using externally-actuatable means
- F16H48/34—Arrangements for suppressing or influencing the differential action, e.g. locking devices using externally-actuatable means using electromagnetic or electric actuators
- F16H2048/343—Arrangements for suppressing or influencing the differential action, e.g. locking devices using externally-actuatable means using electromagnetic or electric actuators using a rotary motor
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H48/00—Differential gearings
- F16H48/36—Differential gearings characterised by intentionally generating speed difference between outputs
- F16H2048/364—Differential gearings characterised by intentionally generating speed difference between outputs using electric or hydraulic motors
Definitions
- the invention relates to an active differential for the controlled distribution of a drive torque generated by a drive motor on two output shafts, comprising a planetary gear for coupling the output shafts with a drive shaft of the drive motor and a distribution shaft of a distribution motor, wherein the distribution of the drive torque to the output shafts depending on a by the Distributor motor is applied torque.
- Active differentials are used to distribute drive torques to several, in particular two, output shafts.
- the differential makes it possible that the two output shafts have different rotational speeds. If the differential is operated without an additional distribution motor or a complete or partial locking of the differential, the same torques are transmitted to both output shafts.
- An active intervention in a differential which changes the torque distribution to the output shafts in dependence on a further torque introduced, allows a flexible distribution of torques.
- Active differentials are used in particular in motor vehicles for distributing the drive torque of a drive motor to the driven wheels of the motor vehicle.
- the use of such an active differential is often referred to as "torque vectoring" or “active yaw”.
- active yaw The use of an active differential in the motor vehicle in particular allows an active influencing of the yaw angle of the motor vehicle, as can be controlled or adjusted separately by the active differential, the torques on the individual wheels and thus the forces transmitted to the respective wheel on the road.
- the invention is therefore based on the object to provide an active differential, the electrical and mechanical components are less loaded at a low load by small speed differences between the output shafts.
- the object is achieved by an active differential of the type mentioned, wherein the distribution shaft and the planetary gear are coupled by a coupling device, the exclusively at Exceeding a predetermined limit by the rotational speed difference between the rotational speeds of the output shafts as well as fulfilling a dependent of an operating condition of the Verteilmotors connection condition transmits a torque from the planetary gear to the distribution shaft.
- the invention is based on the idea that the initially described transmission of low speed differences between the output shafts on the distributor motor is disadvantageous and it is therefore advantageous to suppress torque transmission at least in the direction of the distribution motor speed-dependent.
- the coupling device completely decouple the distribution shaft from the planetary gear when the speed difference between the rotational speeds of the output shafts is below a predetermined limit. This is possible in particular since the rotation of the distribution shaft in the coupled state takes place at a rotational speed which corresponds to the speed difference between the output axes which is scaled by a transmission factor.
- the coupling device may be formed by a coupling which couples the elements to be coupled only at a predetermined minimum speed, for example as a correspondingly formed centrifugal clutch.
- a sensor it is also possible to measure the speed difference or the speed difference proportional speed by a sensor to compare using a circuit or a control device with a limit and control a controllable, in particular electrically controllable, clutch device accordingly.
- the coupling device transmits a torque from the planetary gear to the distribution shaft, independently of the rotational speed, upon fulfillment of the connection condition dependent on the operating state of the distributor motor.
- the connection condition can in particular evaluate an energization of the distributor motor and / or a control of the distributor motor for generating a torque.
- control device can in principle control the coupling device for coupling the planetary gear to the distributor shaft if there is a situation in which a torque is to be transmitted in a targeted manner.
- the coupling device mechanically in such a way that a torque transmission between the distribution shaft and planetary gear is possible even when falling below a speed difference during operation of the distributor motor for generating a torque.
- the coupling device may in particular be a centrifugal clutch or comprise a centrifugal clutch.
- a centrifugal clutch can be easily formed so that a coupling between the planetary gear and the distribution shaft takes place exactly when a predetermined speed of the planetary gear or a connecting shaft between the planetary gear and clutch device is exceeded. Because the connecting shaft maybe utilized to couple a planetary gear only when a predetermined speed difference with a distribution shaft.
- the coupling means may be a viscous coupling or comprise a viscous coupling.
- the viscous coupling can have a defined momentary closure from a predetermined minimum speed and transmit at low speeds no or only minimal torques. This applies to the viscous coupling above the centrifugal clutch said.
- the coupling device comprises a locking device, wherein the coupling device is designed for speed-independent transmission of torque from the planetary gear to the distribution shaft and from the distribution shaft to the planetary gear with active locking device.
- the differential may in particular comprise a control device which is designed to activate the blocking device upon fulfillment of the connection condition dependent on an operating state of the distributor motor.
- the operating state which leads to an activation of the locking device, in particular be energization of the Verteilmotors, in particular a current limit is provided, in the crossing of which the locking device is activated.
- information is provided for the control device on which the control of the distributor motor is based.
- the blocking device directly in response to electrical signals or mechanical processes is activated. So it is for example possible to energize the current of the motor and a magnet that activates the locking device, or to activate the locking device in response to acting in the coupling device torques.
- the differential comprises a sensor for detecting the speed difference and a control device
- the coupling device comprises a coupling element which transmits torque in a connected state of a planetary gear to the distribution shaft and from the distribution shaft to the planetary gear and in a disconnected state does not transmit torque
- the control device is designed to control the coupling element in dependence on the rotational speed difference for the change between the connected and the disconnected state.
- the sensor can be arranged in particular on a shaft whose speed is proportional to the speed difference, in particular on the distribution shaft or a shaft which leads from the planetary gear to the coupling device.
- the use of a sensor and a control device has the particular advantage that a very flexible control of the coupling element is possible. Above all, with this flexible control it can be easily achieved that transmission of torque from the distribution shaft to the planetary gear is possible even at low speed differences. Moreover, when using a control device, it is easily possible to adapt the predetermined limit value.
- the torque transmission from the planetary gear to the distribution shaft is to be suppressed, in particular in the case of permanent but small speed differences between the rotational speeds of the drive shafts.
- the predetermined limit value can be adjusted as a function of changes in the mean speed differences over longer periods of time.
- control device may be designed, in particular, in the presence of a dependent of an operating condition of the Verteilmotors connection condition, regardless of the speed difference, to control the coupling element for changing into and remaining in the connected state.
- the connection condition can in particular evaluate the operating state of the distributor motor. The evaluation of the operating state of the Verteilmotors can be explained as above for the activation of a locking device.
- the coupling element may be a magnetic coupling, wherein at least one magnet of the magnetic coupling by the control device for changing between the connected and the disconnected state is controlled.
- Magnetic couplings are controllable by changing the position of a disk or the arrangement of a magnetic powder or a magnetic fluid by switching a magnet, so that, depending on the circuit of the electromagnet, the coupling element connects or disconnects the distribution shaft and the planetary gear.
- the coupling element may comprise at least one clutch actuator, which is controllable by the control device for changing between the connected and the disconnected state, and which is designed to move at least one mechanical element of the coupling element.
- the clutch actuator in particular move the slats of a multi-plate clutch.
- the coupling device may comprise at least one freewheel coupling the distributor shaft and the planetary gear and a blocking element associated with the freewheel, the freewheel being locked in a blocking position of the blocking element and a free rotation of the distributing shaft relative to the planetary gear in an open position of the blocking element in a predetermined relative direction of rotation is possible, and wherein the position of the blocking element is dependent on the speed difference.
- the position of the blocking element can be changed in particular by an actuator which is controlled by a control device.
- the blocking element can also be designed mechanically such that it is moved depending on the rotational speed between an open position of the blocking element and a blocking position.
- a centrifugal clutch or a viscous coupling each with additional catch, can be used, so that z. B. at a separation of the centrifugal clutch, a freewheel is achieved, and in a compound of the centrifugal clutch torque transmission in both directions is possible.
- the blocking elements can be controlled separately, in particular by a control device.
- the blocking elements may also be designed and arranged such that they are moved as a function of rotational speed and direction of rotation between the blocking position and the open position due to the mechanical interactions in the coupling device.
- the invention relates to a motor vehicle comprising a differential according to one of the embodiments described above.
- a differential according to the invention in which a torque is transmitted from the planetary gear to the distribution shaft only when a predetermined limit value is exceeded by the rotational speed difference between the rotational speeds of the drive shafts and when fulfilling a dependent of an operating condition of the Verteilmotors connection condition.
- the output shafts may each be coupled in particular each to a wheel of the motor vehicle.
- Fig. 1 shows an embodiment of an active differential 1 for the controlled distribution of a drive torque generated by a drive motor On the two output shafts 3, 4.
- the coupling of the drive motor 2 and the drive shaft to the output shafts 3, 4 is effected by the planetary gear 5 of the differential 1.
- the differential 1 comprises a distribution motor 6, wherein the distribution of the drive torque to the output shafts 3, 4 is dependent on the torque exerted by the distributor motor 6.
- the distribution motor 6 is coupled via a distribution shaft with the coupling device 7, which in turn is coupled to the planetary gear 5.
- the differential 1 In a complete decoupling of the distribution shaft from the planetary gear 5 by the coupling device 7, the differential 1 has the behavior of a non-locked differential, so that the torque generated by the drive motor 2 is evenly distributed to the output shafts 3 and 4. If the distribution shaft coming from the distributor motor 6 is connected to the planetary gear 5 by the coupling device 7, the torque of the distributor motor 6 controls the distribution of the drive torque to the output shafts 3 and 4.
- the coupling device 7 is to couple the distribution shaft with the planetary gear 5. However, if the rotational speed difference between the rotational speeds of the output shafts 3 and 4 is small, the coupling device 7 should at least decouple the distribution shaft from the planetary gearing 5 such that no torques can be transmitted from the planetary gearing 5 to the distribution shaft and thus to the distribution motor 6. To achieve this, the coupling device 7 is designed such that it transmits a torque from the planetary gear 5 to the distribution shaft exclusively when a predetermined limit value is exceeded by the rotational speed difference between the rotational speeds of the output shafts 3, 4 and when energizing the distributor motor 6.
- this connecting shaft has a speed which is the speed difference between the rotational speeds of the output shafts 3 and 10 scaled by a gear ratio of the planetary gear 5 4 corresponds.
- a limit for the speed difference between the rotational speeds of the output shafts 3, 4 thus corresponds to a derived limit value for the rotational speed of the connecting shaft.
- the coupling device is a centrifugal clutch.
- the centrifugal clutch is designed such that at low speeds, the connecting shaft is not coupled to the distribution shaft, however, upon reaching a certain minimum speed, a coupling of connecting shaft and distribution shaft and thus done by planetary gear 5 and 6 distributor.
- a magnet is additionally provided on the centrifugal clutch, which is also energized when energizing the Verteilmotors 6 and when energized, the centrifugal clutch connects independently of speed.
- FIG. 2 An advantageous development of in Fig. 1 shown active differential 1 is in Fig. 2 shown.
- the active differential 8 is essentially the same as that in FIG Fig. 1 constructed differential 1, which is different from the in Fig. 1 shown differential 1 by the formation of the coupling device 14 and by the additional use of a sensor 15 and a control device 16 differs.
- As in the in Fig. 1 shown differential 1 is also in the embodiment according to Fig. 2 through the planetary gear 12 of the differential 8, a drive torque of the drive motor 9 distributed to the output shafts 10 and 11.
- the distribution motor 13 is coupled via the distribution shaft and the coupling device 14 with the planetary gear 12.
- a sensor is also arranged, which detects the rotational speed of the connecting shaft between the planetary gear 12 and clutch device 14.
- the data acquired by the sensor 15 are made available to the control device 16.
- the control device 16 controls depending on the speed detected by the sensor 15 and other data present in the motor vehicle the drive motor 9, the distribution motor 13 and the coupling device 14th
- the coupling device 14 is in this case designed as a magnetic coupling which connects the distribution shaft with the planetary gear 12 or not in response to a control signal of the control device 16.
- the control device 16 detects the speed detected by the sensor 15 for controlling the clutch device. Since the control device 16 also controls the distributor motor 13, the control device 16 also contains information about the setpoint torques which are to be exerted by the distributor motor 13.
- the control of the coupling device 14 takes place in dependence on the speed of the distribution shaft detected by the sensor 15. If the detected rotational speed is lower than or equal to a limit value, the clutch device 14 is actuated in order to separate the distributor shaft and the connecting shaft and thus the planetary gear 12 and the distributor motor 13. If the rotational speed exceeds the limit value, the clutch device 14 is actuated by the control device 16 in order to connect the connecting shaft and the distribution shaft and thus the planetary gear 12 and the distributor motor 13.
- an active differential it is also possible to form the coupling device mechanically so that a torque transmission takes place only if the connecting shaft has a certain minimum speed, so for example as a centrifugal clutch, but complementary to the coupling device a locking device to provide, when activated to a speed-independent transmission of torque from the distribution shaft leads to the planetary gear.
- a locking device can be designed as an actuator that actuates a locking pin.
- the blocking device of the coupling device can be activated by the control device precisely when the distributor motor is actuated to generate torques. This achieves the same function of the active differential as that previously described with reference to FIG Fig. 2 described differential 8.
- Fig. 3 shows a further embodiment possibility for a coupling device of an active differential.
- the coupling device 17 couples the connecting shaft 18, which connects the coupling device 17 and the planetary gear, not shown, with the distribution shaft 19, which connects the coupling device 17 with the distribution motor, not shown.
- the coupling device 17 in this case comprises two freewheels 20, 21 which each have a respective opposite freewheeling direction. Without further elements, this would mean that always a free rotation of the connecting shaft 18 with respect to the distribution shaft 19 is possible. Therefore, the freewheels 20, 21 additionally include locking elements which lock the freewheels in a blocking position and lead to a fixed coupling of the shafts of the freewheel in both directions.
- the blocking elements are each separately by the control device 23 of an open position in which a free rotation in the predetermined for the respective freewheel 20, 21 direction of rotation is possible, can be brought into a blocking position in which the freewheel is locked. If a rotational speed is detected by the rotational speed sensor 22 arranged on the connecting shaft 18, which rotational speed is above a predetermined limit value, then the rotational speed is controlled Control device 23, the blocking elements in such a way that the freewheels 20 and 21 are locked, so a torque transmission in both directions is possible.
- Fig. 4 shows an embodiment of a motor vehicle that includes an active differential.
- the motor vehicle 24 has a rear wheel drive, wherein the rear wheels 25, 26 are operated by the drive motor 27.
- the distribution of the drive torque provided by the drive motor 27 to the wheels 25, 26 is performed by the active differential 28.
- the active differential 28 is in accordance with the in Fig. 1 shown differential 1 constructed. Alternatively, of course, would also be a structure of the differential 28 according to the in Fig. 2 shown differential 8 or according to one of the other illustrative embodiments possible.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Transportation (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Automation & Control Theory (AREA)
- Retarders (AREA)
Description
Die Erfindung betrifft ein aktives Differential zur gesteuerten Verteilung eines durch einen Antriebsmotor erzeugten Antriebsmoments auf zwei Abtriebswellen, umfassend ein Planetengetriebe zur Kopplung der Abtriebswellen mit einer Antriebswelle des Antriebsmotors und einer Verteilwelle eines Verteilmotors, wobei die Verteilung des Antriebsmoments auf die Abtriebswellen abhängig von einem durch den Verteilmotor ausgeübten Drehmoment ist.The invention relates to an active differential for the controlled distribution of a drive torque generated by a drive motor on two output shafts, comprising a planetary gear for coupling the output shafts with a drive shaft of the drive motor and a distribution shaft of a distribution motor, wherein the distribution of the drive torque to the output shafts depending on a by the Distributor motor is applied torque.
Ein aktives Differential mit den Merkmalen des Oberbegriffs von Anspruch 1 ist aus
Aktive Differentiale werden benutzt um Antriebsmomente auf mehrere, insbesondere zwei, Abtriebswellen zu verteilen. Das Differential ermöglicht es dabei, dass die zwei Abtriebswellen verschiedene Drehgeschwindigkeiten aufweisen. Wird das Differential ohne einen zusätzlichen Verteilmotor oder ein vollständiges oder teilweises Sperren des Differentials betrieben, so werden auf beide Abtriebswellen die gleichen Drehmomente übertragen. Ein aktives Eingreifen in ein Differential, das in Abhängigkeit eines weiteren eingebrachten Drehmoments die Drehmomentverteilung auf die Abtriebswellen ändert, erlaubt eine flexible Verteilung von Drehmomenten.Active differentials are used to distribute drive torques to several, in particular two, output shafts. The differential makes it possible that the two output shafts have different rotational speeds. If the differential is operated without an additional distribution motor or a complete or partial locking of the differential, the same torques are transmitted to both output shafts. An active intervention in a differential, which changes the torque distribution to the output shafts in dependence on a further torque introduced, allows a flexible distribution of torques.
Aktive Differentiale werden insbesondere in Kraftfahrzeugen zur Verteilung des Antriebsmoments eines Antriebsmotors auf die anzutreibenden Räder des Kraftfahrzeugs genutzt. Im Kraftfahrzeugsegment wird die Nutzung eines solchen aktiven Differentials häufig als "torque vectoring" oder "active yaw" bezeichnet. Die Nutzung eines aktiven Differentials im Kraftfahrzeug erlaubt insbesondere eine aktive Beeinflussung des Gierwinkels des Kraftfahrzeugs, da durch das aktive Differential die Drehmomente an den einzelnen Rädern und damit die am jeweiligen Rad auf die Straße übertragenden Kräfte separat gesteuert bzw. angepasst werden können.Active differentials are used in particular in motor vehicles for distributing the drive torque of a drive motor to the driven wheels of the motor vehicle. In the automotive segment, the use of such an active differential is often referred to as "torque vectoring" or "active yaw". The use of an active differential in the motor vehicle in particular allows an active influencing of the yaw angle of the motor vehicle, as can be controlled or adjusted separately by the active differential, the torques on the individual wheels and thus the forces transmitted to the respective wheel on the road.
Bei aktiven Differentialen führen selbst sehr kleine Drehzahlunterschiede zwischen den Abtriebswellen zu einer Rotation der Verteilwelle und damit des Verteilmotors. Da als Verteilmotor typischerweise ein relativ kleindimensionierter Motor genutzt werden soll, ist dabei typischerweise eine Übersetzung zwischen dem Drehzahlunterschied der Abtriebsachsen und der Verteilwelle vorgesehen, um mit dem relativ kleindimensionierten Verteilmotor große Drehmomentunterschiede zwischen den Abtriebsachsen generieren zu können. Daher können bereits geringe Drehzahlunterschiede zwischen Abtriebsachsen zu einer dauerhaften Rotation des Verteilmotors mit einer mittleren Drehzahl führen. Dies kann zu einem dauerhaften Laden und Entladen des Akkumulators mit geringen Strömen, zusätzlichen mechanischen Belastungen und insbesondere einer ungleichmäßigen Belastung von getakteter Leistungselektronik führen. Damit werden sowohl die elektrischen als auch die mechanischen Komponenten des aktiven Differentials bereits bei minimalen Drehzahlunterschieden belastet.With active differentials even very small speed differences between the output shafts lead to a rotation of the distribution shaft and thus the distributor motor. Since a relatively small dimensioned motor is typically to be used as the distribution motor, a ratio between the speed difference of the output axles and the distribution shaft is typically provided in order to be able to generate large torque differences between the output axles with the relatively small-sized distribution motor. Therefore, even low speed differences between output axles can lead to a permanent rotation of the distributor motor with a medium speed. This can lead to a permanent charging and discharging of the accumulator with low currents, additional mechanical loads and in particular an uneven load of pulsed power electronics. Thus, both the electrical and the mechanical components of the active differential are already loaded at minimum speed differences.
Insbesondere bei der Nutzung eines aktiven Differentials in einem Kraftfahrzeug können derartige Belastungen jedoch über lange Zeiträume auftreten, beispielsweise wenn die Reifen des Kraftfahrzeugs ungleichmäßig abgefahren sind und damit im Fahrbetrieb stets ein geringer Drehzahlunterschied zwischen den Abtriebsachsen, die mit den Reifen gekoppelt sind, besteht oder wenn die Gewichtsverlagerung im Kraftfahrzeug ungleichmäßig ist. Auch sehr kleine Lenkbewegungen, wie sie von Fahrern typischerweise ständig ausgeführt werden, führen zu einer dauerhaften Belastung des aktiven Differentials.However, especially when using an active differential in a motor vehicle, such loads may occur over long periods of time, for example, when the tires of the motor vehicle are unevenly traveled and thus there is always a slight difference in rotational speed between the output axles that are coupled to the tires when driving, or if the weight shift in the motor vehicle is uneven. Even very small steering movements, which are typically performed by drivers constantly, lead to a permanent load on the active differential.
Der Erfindung liegt damit die Aufgabe zugrunde, ein aktives Differential anzugeben, dessen elektrische und mechanische Komponenten bei einer Geringbelastung durch kleine Drehzahlunterschiede zwischen den Abtriebsachsen weniger belastet werden.The invention is therefore based on the object to provide an active differential, the electrical and mechanical components are less loaded at a low load by small speed differences between the output shafts.
Die Aufgabe wird erfindungsgemäß durch ein aktives Differential der eingangs genannten Art gelöst, wobei die Verteilwelle und das Planetengetriebe durch eine Kupplungseinrichtung gekoppelt sind, die ausschließlich bei Überschreiten eines vorgegebenen Grenzwertes durch die Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen sowie bei Erfüllung einer von einem Betriebszustand des Verteilmotors abhängigen Verbindungsbedingung ein Drehmoment von dem Planetengetriebe auf die Verteilwelle überträgt.The object is achieved by an active differential of the type mentioned, wherein the distribution shaft and the planetary gear are coupled by a coupling device, the exclusively at Exceeding a predetermined limit by the rotational speed difference between the rotational speeds of the output shafts as well as fulfilling a dependent of an operating condition of the Verteilmotors connection condition transmits a torque from the planetary gear to the distribution shaft.
Der Erfindung liegt die Idee zugrunde, dass die einleitend beschriebenen Übertragung von geringen Drehzahlunterschieden zwischen den Abtriebswellen auf den Verteilmotor nachteilig ist und es daher vorteilhaft ist, Drehmomentübertragungen zumindest in Richtung des Verteilmotors drehzahlabhängig zu unterbinden. Dabei kann im einfachsten Fall die Kupplungseinrichtung die Verteilwelle vollständig vom Planetengetriebe entkoppeln, wenn die Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen unterhalb eines vorgegebenen Grenzwertes liegt. Dies ist insbesondere möglich, da die Rotation der Verteilwelle im gekoppelten Zustand mit einer Drehzahl erfolgt, die dem mit einem Übersetzungsfaktor skalierten Drehzahlunterschied zwischen den Abtriebsachsen entspricht. Die Drehzahl der Verteilwelle selbst im gekoppelten Zustand oder die Drehzahl einer Welle, die das Planetengetriebe mit der Kupplungseinrichtung koppelt, kann damit als Größe aufgefasst werden, die zum Drehzahlunterschied proportional ist. Daher kann eine Abhängigkeit vom Drehzahlunterschied auch als eine Abhängigkeit von dieser proportionalen Drehzahl betrachtet werden. Im einfachsten Fall kann die Kupplungseinrichtung durch eine Kupplung ausgebildet sein, die die zu kuppelnden Elemente erst bei einer vorgegebenen Mindestdrehzahl kuppelt, beispielsweise als eine entsprechend ausgebildete Fliehkraftkupplung. Selbstverständlich ist es auch möglich, die Drehzahldifferenz bzw. die zur Drehzahldifferenz proportionale Drehzahl durch einen Sensor zu messen, mithilfe einer Schaltung oder einer Steuereinrichtung mit einem Grenzwert zu vergleichen und eine steuerbare, insbesondere elektrisch ansteuerbare, Kupplungseinrichtung entsprechend zu steuern.The invention is based on the idea that the initially described transmission of low speed differences between the output shafts on the distributor motor is disadvantageous and it is therefore advantageous to suppress torque transmission at least in the direction of the distribution motor speed-dependent. In this case, in the simplest case, the coupling device completely decouple the distribution shaft from the planetary gear when the speed difference between the rotational speeds of the output shafts is below a predetermined limit. This is possible in particular since the rotation of the distribution shaft in the coupled state takes place at a rotational speed which corresponds to the speed difference between the output axes which is scaled by a transmission factor. The speed of the distribution shaft even in the coupled state or the rotational speed of a shaft which couples the planetary gear with the clutch device can thus be construed as a size that is proportional to the speed difference. Therefore, a dependence on the speed difference can also be considered as a function of this proportional speed. In the simplest case, the coupling device may be formed by a coupling which couples the elements to be coupled only at a predetermined minimum speed, for example as a correspondingly formed centrifugal clutch. Of course, it is also possible to measure the speed difference or the speed difference proportional speed by a sensor to compare using a circuit or a control device with a limit and control a controllable, in particular electrically controllable, clutch device accordingly.
Dabei soll es möglich sein, auch in den Fällen das aktive Differential durch Aufbringen eines Drehmoments durch den Verteilmotor zu steuern, wenn der Drehzahlunterschied zwischen den Abtriebsachsen gering ist. So ist beispielsweise bei einer Nutzung des Differentials im Kraftfahrzeug möglich, dass bei einem Anfahren oder Halten am Berg oder beim Überfahren eines Hindernisses, wie eines Bordsteins oder Ähnlichem, gezielt auf eines der Räder ein höheres Drehmoment übertragen werden soll, um das Hindernis zu überwinden oder um einen nicht vollständig horizontalen Straßenverlauf auszugleichen, die Räder des Kraftfahrzeugs und damit die Abtriebsachsen jedoch mit identischer oder nahezu identischer Drehzahl drehen. Zur Steuerung des Differentials durch ein Drehmoment des Verteilmotors muss jedoch ein Drehmoment von der Verteilwelle auf das Planetengetriebe übertragen werden. Dabei wird jedoch auch ein Gegenmoment von dem Planetengetriebe auf die Verteilwelle übertragen. Daher ist es vorteilhaft, dass die Kopplungseinrichtung erfindungsgemäß bei Erfüllung der vom Betriebszustand des Verteilmotors abhängigen Verbindungsbedingung drehzahlunabhängig ein Drehmoment von dem Planetengetriebe auf die Verteilwelle überträgt. Die Verbindungsbedingung kann dabei insbesondere eine Bestromung des Verteilmotors und/oder eine Ansteuerung des Verteilmotors zur Generierung eines Drehmoments auswerten.It should be possible to control even in cases the active differential by applying a torque through the distributor motor when the speed difference between the output shafts is low. Such is for example when using the differential in the motor vehicle possible that at a start or stop on the mountain or when driving over an obstacle, such as a curb or the like, targeted to one of the wheels, a higher torque is to be transmitted to overcome the obstacle or not one compensate for completely horizontal road course, but the wheels of the motor vehicle and thus the output axles rotate with identical or nearly identical speed. To control the differential by a torque of the distributor motor, however, a torque must be transmitted from the distribution shaft to the planetary gear. In this case, however, a counter-torque is transmitted from the planetary gear to the distribution shaft. Therefore, it is advantageous that the coupling device according to the invention transmits a torque from the planetary gear to the distribution shaft, independently of the rotational speed, upon fulfillment of the connection condition dependent on the operating state of the distributor motor. In this case, the connection condition can in particular evaluate an energization of the distributor motor and / or a control of the distributor motor for generating a torque.
Handelt es sich um eine steuerbare Kupplungseinrichtung, die durch eine Steuereinrichtung gesteuert wird, ist dies einfach möglich. Die Steuereinrichtung kann die Kupplungseinrichtung grundsätzlich zur Kopplung des Planetengetriebes mit der Verteilerwelle ansteuern, wenn eine Situation vorliegt, in der ein Drehmoment gezielt übertragen werden soll. Grundsätzlich ist es jedoch auch möglich, die Kupplungseinrichtung mechanisch derart auszubilden, dass auch bei Unterschreiten einer Drehzahldifferenz bei Betrieb des Verteilmotors zur Erzeugung eines Drehmoments eine Drehmomentübertragung zwischen Verteilwelle und Planetengetriebe möglich ist.If it is a controllable coupling device, which is controlled by a control device, this is easily possible. The control device can in principle control the coupling device for coupling the planetary gear to the distributor shaft if there is a situation in which a torque is to be transmitted in a targeted manner. In principle, however, it is also possible to form the coupling device mechanically in such a way that a torque transmission between the distribution shaft and planetary gear is possible even when falling below a speed difference during operation of the distributor motor for generating a torque.
Die Kupplungseinrichtung kann insbesondere eine Fliehkraftkupplung sein oder eine Fliehkraftkupplung umfassen. Eine Fliehkraftkupplung kann leicht so ausgebildet werden, dass eine Kopplung zwischen dem Planetengetriebe und der Verteilwelle genau dann erfolgt, wenn eine vorgegebene Drehzahl des Planetengetriebes bzw. einer Verbindungswelle zwischen Planetengetriebe und Kupplungseinrichtung überschritten wird. Da die Verbindungswelle eine Drehzahl aufinreist, die zur Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen proportional ist, kann eine Fliehkraftkupplung genutzt werden, um einen Planetengetriebe erst bei Überschreiten einer vorgegebenen Drehzahldifferenz mit einer Verteilwelle zu koppeln.The coupling device may in particular be a centrifugal clutch or comprise a centrifugal clutch. A centrifugal clutch can be easily formed so that a coupling between the planetary gear and the distribution shaft takes place exactly when a predetermined speed of the planetary gear or a connecting shaft between the planetary gear and clutch device is exceeded. Because the connecting shaft aufeinreist a speed that is proportional to the speed difference between the speeds of the output shafts, a centrifugal clutch can be used to couple a planetary gear only when a predetermined speed difference with a distribution shaft.
Alternativ kann die Kupplungseinrichtung eine viskose Kupplung sein oder eine viskose Kupplung umfassen. Die viskose Kupplung kann dabei einen definierten Momentschluss ab einer vorgegebenen Mindestdrehzahl aufweisen und bei kleinen Drehzahlen keine oder nur minimale Drehmomente übertragen. Damit gilt für die viskose Kupplung das oben zur Fliehkraftkupplung Gesagte.Alternatively, the coupling means may be a viscous coupling or comprise a viscous coupling. The viscous coupling can have a defined momentary closure from a predetermined minimum speed and transmit at low speeds no or only minimal torques. This applies to the viscous coupling above the centrifugal clutch said.
Dabei ist es vorteilhaft, wenn die Kupplungseinrichtung eine Sperrvorrichtung umfasst, wobei die Kupplungseinrichtung zur drehzahlunabhängigen Übertragung von Drehmomenten von dem Planetengetriebe auf die Verteilwelle und von der Verteilwelle auf das Planetengetriebe bei aktiver Sperrvorrichtung ausgebildet ist. Dabei kann das Differential insbesondere eine Steuereinrichtung umfassen, die ausgebildet ist, bei Erfüllung der von einem Betriebszustand des Verteilmotors abhängigen Verbindungsbedingung die Sperreinrichtung zu aktiveren. Dabei kann der Betriebszustand, der zu einem Aktivieren der Sperreinrichtung führt, insbesondere eine Bestromung des Verteilmotors sein, wobei im Speziellen ein Stromgrenzwert vorgesehen ist, bei dessen Übertreten die Sperrvorrichtung aktiviert wird. Es ist jedoch auch möglich, dass für die Steuereinrichtung Informationen bereitgestellt werden, auf denen auch die Steuerung des Verteilmotors basiert. So ist es beispielsweise möglich, dass ein Fahrzeugsystem bei Ansteuerung des Verteilmotors zur Erzeugung eines definierten Drehmomentes den Drehmomentsollwert auch der Steuereinrichtung zur Verfügung stellt, so dass diese bei Ansteuerung des Verteilmotors zur Erzeugung des Drehmoments oder bei Überschreiten eines vorgegebenen Grenzwertes durch den Drehmomentsollwert die Sperrvorrichtung aktivieren kann.It is advantageous if the coupling device comprises a locking device, wherein the coupling device is designed for speed-independent transmission of torque from the planetary gear to the distribution shaft and from the distribution shaft to the planetary gear with active locking device. In this case, the differential may in particular comprise a control device which is designed to activate the blocking device upon fulfillment of the connection condition dependent on an operating state of the distributor motor. In this case, the operating state, which leads to an activation of the locking device, in particular be energization of the Verteilmotors, in particular a current limit is provided, in the crossing of which the locking device is activated. However, it is also possible that information is provided for the control device on which the control of the distributor motor is based. It is thus possible, for example, for a vehicle system, when the distribution motor is actuated to generate a defined torque, to make the torque setpoint available to the control device so that it activates the blocking device when the torque motor is driven or when a predetermined limit value is exceeded by the torque setpoint can.
Alternativ oder ergänzend ist auch möglich, dass die Sperrvorrichtung direkt in Abhängigkeit von elektrischen Signalen oder mechanischen Vorgängen aktiviert wird. So ist es beispielsweise möglich, mit der Bestromung des Motors auch einen Magneten zu bestromen, der die Sperrvorrichtung aktiviert, oder die Sperrvorrichtung in Abhängigkeit von in der Kupplungseinrichtung wirkenden Drehmomenten zu aktivieren.Alternatively or additionally, it is also possible that the blocking device directly in response to electrical signals or mechanical processes is activated. So it is for example possible to energize the current of the motor and a magnet that activates the locking device, or to activate the locking device in response to acting in the coupling device torques.
Alternativ oder ergänzend zur Nutzung von Elementen der Kupplungseinrichtung, die rein mechanisch in Abhängigkeit der Drehzahldifferenz eine Kopplung von Planetengetriebe und Verteilwelle herbeiführen oder trennen, ist es möglich, insbesondere elektrisch gesteuerte Elemente der Kupplungseinrichtung zu nutzen. Dabei ist es vorteilhaft, wenn das Differential einen Sensor zur Erfassung der Drehzahldifferenz und eine Steuereinrichtung umfasst, wobei die Kupplungseinrichtung ein Kuppelelement umfasst, das in einem verbundenen Zustand ein Drehmoment von einem Planetengetriebe auf die Verteilwelle und von der Verteilwelle auf das Planetengetriebe überträgt und in einem getrennten Zustand kein Drehmoment überträgt, wobei die Steuereinrichtung ausgebildet ist, das Kuppelelement in Abhängigkeit der Drehzahldifferenz zum Wechsel zwischen dem verbundenen und dem getrennten Zustand anzusteuern.As an alternative or in addition to the use of elements of the coupling device, which cause or separate purely mechanically as a function of the speed difference coupling of planetary gear and distribution shaft, it is possible to use in particular electrically controlled elements of the coupling device. It is advantageous if the differential comprises a sensor for detecting the speed difference and a control device, wherein the coupling device comprises a coupling element which transmits torque in a connected state of a planetary gear to the distribution shaft and from the distribution shaft to the planetary gear and in a disconnected state does not transmit torque, wherein the control device is designed to control the coupling element in dependence on the rotational speed difference for the change between the connected and the disconnected state.
Der Sensor kann dabei insbesondere an einer Welle angeordnet sein, deren Drehzahl proportional zur Drehzahldifferenz ist, insbesondere an der Verteilwelle oder einer Welle, die vom Planetengetriebe zur Kupplungseinrichtung führt. Die Nutzung eines Sensors und einer Steuereinrichtung hat dabei insbesondere den Vorteil, dass eine sehr flexible Steuerung des Kuppelelements möglich ist. Mit dieser flexiblen Steuerung kann vor allem leicht erreicht werden, dass auch bei niedrigen Drehzahldifferenzen eine Übertragung eines Drehmoments von der Verteilwelle auf das Planetengetriebe möglich ist. Zudem ist es bei Nutzung einer Steuereinrichtung einfach möglich, den vorgegebenen Grenzwert anzupassen. Im erfindungsgemäßen Differential soll die Drehmomentübertragung von dem Planetengetriebe auf die Verteilwelle insbesondere bei dauerhaften, aber geringen Drehzahldifferenzen zwischen den Drehzahlen der Antriebswellen unterbunden werden. Insbesondere bei der Nutzung in einem Kraftfahrzeug ist es jedoch vorteilhaft, diesen Grenzwert variabel zu gestalten, da beispielsweise die durch verschiedenes Abfahren der Reifen verursachten Drehzahldifferenzen sich über einen gewissen Zeitraum ändern können. Daher kann vorteilhaft bei Nutzung einer Steuereinrichtung zur Steuerung der Kupplungseinrichtung der vorgegebene Grenzwert in Abhängigkeit von Veränderungen der mittleren Drehzahldifferenzen über längere Zeiträume angepasst werden.The sensor can be arranged in particular on a shaft whose speed is proportional to the speed difference, in particular on the distribution shaft or a shaft which leads from the planetary gear to the coupling device. The use of a sensor and a control device has the particular advantage that a very flexible control of the coupling element is possible. Above all, with this flexible control it can be easily achieved that transmission of torque from the distribution shaft to the planetary gear is possible even at low speed differences. Moreover, when using a control device, it is easily possible to adapt the predetermined limit value. In the differential according to the invention, the torque transmission from the planetary gear to the distribution shaft is to be suppressed, in particular in the case of permanent but small speed differences between the rotational speeds of the drive shafts. In particular, when used in a motor vehicle, however, it is advantageous to make this limit variable, since, for example, by various Starting the tires caused speed differences can change over a period of time. Therefore, advantageously, when using a control device for controlling the clutch device, the predetermined limit value can be adjusted as a function of changes in the mean speed differences over longer periods of time.
Dabei kann die Steuereinrichtung insbesondere ausgebildet sein, bei Vorliegen einer von einem Betriebszustand des Verteilmotors abhängigen Verbindungsbedingung, unabhängig von der Drehzahldifferenz, das Kuppelelement zum Wechsel in den und Verbleib in dem verbundenen Zustand anzusteuern. Die Verbindungsbedingung kann dabei insbesondere den Betriebszustand des Verteilmotors auswerten. Die Auswertung des Betriebszustands des Verteilmotors kann wie oben zur Aktivierung einer Sperrvorrichtung erläutert erfolgen.In this case, the control device may be designed, in particular, in the presence of a dependent of an operating condition of the Verteilmotors connection condition, regardless of the speed difference, to control the coupling element for changing into and remaining in the connected state. The connection condition can in particular evaluate the operating state of the distributor motor. The evaluation of the operating state of the Verteilmotors can be explained as above for the activation of a locking device.
Die Kuppelelemente können dabei auf vielfältige Weise ausgebildet sein. So kann das Kuppelelement eine Magnetkupplung sein, wobei wenigstens ein Magnet der Magnetkupplung durch die Steuereinrichtung zum Wechsel zwischen dem verbundenen und dem getrennten Zustand ansteuerbar ist. Magnetkupplungen sind ansteuerbar, indem die Position einer Scheibe oder die Anordnung von einem magnetischen Pulver oder einem Magnetofluid durch Schalten eines Magneten verändert wird, so dass, abhängig von der Schaltung des Elektromagneten, das Kuppelelement die Verteilwelle und das Planetengetriebe verbindet oder trennt. Durch Nutzung einer Magnetkupplung kann ein besonders einfach ausgebildetes elektrisch steuerbares Kuppelelement gebildet werden.The coupling elements can be designed in many ways. Thus, the coupling element may be a magnetic coupling, wherein at least one magnet of the magnetic coupling by the control device for changing between the connected and the disconnected state is controlled. Magnetic couplings are controllable by changing the position of a disk or the arrangement of a magnetic powder or a magnetic fluid by switching a magnet, so that, depending on the circuit of the electromagnet, the coupling element connects or disconnects the distribution shaft and the planetary gear. By using a magnetic coupling, a particularly simple trained electrically controllable coupling element can be formed.
Alternativ kann das Kuppelelement wenigstens einen Kupplungsaktor umfassen, der durch die Steuereinrichtung zum Wechsel zwischen dem verbundenen und dem getrennten Zustand steuerbar ist, und der zur Bewegung wenigstens eines mechanischen Elements des Kuppelelements ausgebildet ist. Abhängig von den konkreten Anforderungen an die Kupplungseinrichtung im aktiven Differential kann eine derartige steuerbare mechanische Kupplung als Kuppelelement vorteilhaft sein. Dabei kann der Kupplungsaktor insbesondere die Lamellen einer Lamellenkupplung bewegen.Alternatively, the coupling element may comprise at least one clutch actuator, which is controllable by the control device for changing between the connected and the disconnected state, and which is designed to move at least one mechanical element of the coupling element. Depending on the specific requirements of the coupling device in the active differential, such a controllable mechanical coupling be advantageous as a coupling element. In this case, the clutch actuator in particular move the slats of a multi-plate clutch.
Wie eingangs erläutert kann eine Drehmomentübertragung ausschließlich in eine Richtung bei niedrigen Drehzahlen insbesondere dann erreicht werden, wenn die Kupplungseinrichtung einen Freilauf umfasst. Daher kann die Kupplungseinrichtung wenigstens einen die Verteilwelle und das Planetengetriebe koppelnden Freilauf und ein dem Freilauf zugeordnetes Sperrelement umfassen, wobei in einer Sperrstellung des Sperrelements der Freilauf gesperrt ist und in einer Offenstellung des Sperrelements in eine vorgegebene relative Drehrichtung eine freie Drehung der Verteilwelle gegenüber dem Planetengetriebe möglich ist, und wobei die Stellung des Sperrelements von der Drehzahldifferenz abhängig ist. Die Stellung des Sperrelements kann dabei insbesondere durch einen Aktor verändert werden, der durch eine Steuereinrichtung gesteuert wird. Alternativ kann das Sperrelement jedoch auch mechanisch so ausgebildet sein, dass es drehzahlabhängig zwischen einer Offenstellung des Sperrelements und einer Sperrstellung verbracht wird. Beispielsweise kann eine Fliehkraftkupplung oder eine viskose Kupplung, jeweils mit zusätzlicher Raste, genutzt werden, so dass z. B. bei einer Trennung der Fliehkraftkupplung ein Freilauf erreicht wird, und bei einer Verbindung der Fliehkraftkupplung eine Drehmomentübertragung in beide Richtungen möglich ist.As explained above, a torque transmission can be achieved exclusively in one direction at low speeds, in particular when the coupling device comprises a freewheel. Therefore, the coupling device may comprise at least one freewheel coupling the distributor shaft and the planetary gear and a blocking element associated with the freewheel, the freewheel being locked in a blocking position of the blocking element and a free rotation of the distributing shaft relative to the planetary gear in an open position of the blocking element in a predetermined relative direction of rotation is possible, and wherein the position of the blocking element is dependent on the speed difference. The position of the blocking element can be changed in particular by an actuator which is controlled by a control device. Alternatively, however, the blocking element can also be designed mechanically such that it is moved depending on the rotational speed between an open position of the blocking element and a blocking position. For example, a centrifugal clutch or a viscous coupling, each with additional catch, can be used, so that z. B. at a separation of the centrifugal clutch, a freewheel is achieved, and in a compound of the centrifugal clutch torque transmission in both directions is possible.
Da typischerweise eine Drehmomentübertragung vom Verteilmotor auf das Planetengetriebe in beide Richtungen möglich sein soll, können im Kupplungselement insbesondere zwei Freiläufe vorgesehen sein, die entgegengesetzte Sperrrichtungen aufweisen, wobei die Sperrelemente getrennt, insbesondere durch eine Steuereinrichtung, steuerbar sind. Alternativ können die Sperrelemente jedoch auch so ausgebildet und angeordnet sein, dass sie aufgrund der mechanischen Zusammenwirkungen in der Kupplungseinrichtung drehzahlabhängig und drehrichtungsabhängig zwischen der Sperrstellung und der Offenstellung verbracht werden.Since torque transmission from the distributor motor to the planetary gear is typically to be possible in both directions, in particular two freewheels can be provided in the coupling element, which have opposite blocking directions, wherein the blocking elements can be controlled separately, in particular by a control device. Alternatively, however, the blocking elements may also be designed and arranged such that they are moved as a function of rotational speed and direction of rotation between the blocking position and the open position due to the mechanical interactions in the coupling device.
Des Weiteren betrifft die Erfindung ein Kraftfahrzeug, das ein Differential gemäß einer der oben beschriebenen Ausführungsformen umfasst. Wie eingangs erläutert ist es insbesondere bei der Nutzung eines aktiven Differentials im Kraftfahrzeug möglich, dass geringe Drehzahlunterschiede zwischen den Rädern und damit zwischen den Abtriebsachsen dauerhaft auftreten und damit die mechanischen und elektrischen Komponenten des aktiven Differentials unnötig stark belastet werden. Daher ist es vorteilhaft ein erfindungsgemäßes Differential zu nutzen, bei dem ausschließlich bei Überschreiten eines vorgegebenen Grenzwerts durch die Drehzahldifferenz zwischen den Drehzahlen der Antriebswellen sowie bei Erfüllung einer von einem Betriebszustand des Verteilmotors abhängigen Verbindungsbedingung ein Drehmoment von dem Planetengetriebe auf die Verteilwelle übertragen wird.Furthermore, the invention relates to a motor vehicle comprising a differential according to one of the embodiments described above. As explained above, it is possible in particular when using an active differential in the motor vehicle that small speed differences between the wheels and thus permanently between the output axles occur and thus the mechanical and electrical components of the active differential are unnecessarily heavily loaded. Therefore, it is advantageous to use a differential according to the invention in which a torque is transmitted from the planetary gear to the distribution shaft only when a predetermined limit value is exceeded by the rotational speed difference between the rotational speeds of the drive shafts and when fulfilling a dependent of an operating condition of the Verteilmotors connection condition.
Dabei können die Abtriebswellen insbesondere je mit einem Rad des Kraftfahrzeugs gekoppelt sein.In this case, the output shafts may each be coupled in particular each to a wheel of the motor vehicle.
Weitere Vorteile und Einzelheiten der Erfindung ergeben sich aus den folgenden Ausführungsbeispielen sowie den zugehörigen Zeichnungen. Dabei zeigen:
- Fig. 1
- schematisch ein Ausführungsbeispiel des erfindungsgemäßen aktiven Differentials,
- Fig. 2
- schematisch ein weiteres Ausführungsbeispiel des erfindungsgemäßen aktiven Differentials,
- Fig. 3
- die Kupplungseinrichtung eines dritten Ausführungsbeispiels des erfindungsgemäßen aktiven Differentials, und
- Fig. 4
- ein Ausführungsbeispiel des erfindungsgemäßen Kraftfahrzeugs.
- Fig. 1
- schematically an embodiment of the active differential according to the invention,
- Fig. 2
- schematically a further embodiment of the active differential according to the invention,
- Fig. 3
- the coupling device of a third embodiment of the active differential according to the invention, and
- Fig. 4
- An embodiment of the motor vehicle according to the invention.
Bei großen Drehzahldifferenzen zwischen den Abtriebswellen 3 und 4 soll die Kupplungseinrichtung 7 die Verteilwelle mit dem Planetengetriebe 5 koppeln. Ist die Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen 3 und 4 jedoch klein, so soll die Kupplungseinrichtung 7 die Verteilwelle zumindest derart vom Planetengetriebe 5 entkoppeln, dass keine Drehmomente von dem Planetengetriebe 5 auf die Verteilwelle und damit auf den Verteilmotor 6 übertragen werden können. Um dies zu erreichen ist die Kupplungseinrichtung 7 derart ausgebildet, dass sie ausschließlich bei Überschreiten eines vorgegebenen Grenzwertes durch die Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen 3, 4 sowie bei Bestromung des Verteilmotors 6 ein Drehmoment von dem Planetengetriebe 5 auf die Verteilwelle überträgt. Dabei wird ausgenutzt, dass aufgrund der Kopplung der Abtriebswellen 3, 4 mit einer Verbindungswelle, die das Planetengetriebe 5 mit der Kupplungseinrichtung 7 verbindet, diese Verbindungswelle eine Drehzahl aufweist, die der mit einem Übersetzungsfaktor des Planetengetriebes 5 skalierten Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen 3 und 4 entspricht. Ein Grenzwert für die Drehzahldifferenz zwischen den Drehzahlen der Abtriebswellen 3, 4 entspricht damit einem abgeleiteten Grenzwert für die Drehzahl der Verbindungswelle.At high speed differences between the
Da die Verbindungswelle direkt mit der Kupplungseinrichtung 7 gekoppelt ist, kann als Kupplungseinrichtung 7 eine Kupplungseinrichtung genutzt werden, die eine drehzahlabhängige Kupplung der Verbindungswelle mit der Verteilwelle herbeiführt. Die gewünschte Funktion der Kupplungseinrichtung wird konkret dadurch erreicht, dass die Kupplungseinrichtung eine Fliehkraftkupplung ist. Die Fliehkraftkupplung ist dabei derart ausgebildet, dass bei geringen Drehzahlen die Verbindungswelle nicht mit der Verteilwelle gekoppelt ist, bei Erreichen einer gewissen Mindestdrehzahl jedoch eine Kopplung von Verbindungswelle und Verteilwelle und damit von Planetengetriebe 5 und Verteilmotor 6 erfolgt. Dabei ist an der Fliehkraftkupplung zusätzlich ein Magnet vorgesehen, der bei Bestromung des Verteilmotors 6 ebenfalls bestromt wird und bei Bestromung die Fliehkraftkupplung drehzahlunabhängig verbindet.Since the connecting shaft is coupled directly to the
Eine vorteilhafte Weiterbildung des in
Die Kupplungseinrichtung 14 ist hierbei als Magnetkupplung ausgebildet, die in Abhängigkeit eines Steuersignals der Steuereinrichtung 16 die Verteilwelle mit dem Planetengetriebe 12 verbindet oder nicht. Die Steuereinrichtung 16 erfasst zur Steuerung der Kupplungseinrichtung die vom Sensor 15 erfasste Drehzahl. Da die Steuereinrichtung 16 auch den Verteilmotor 13 ansteuert, liegen in der Steuereinrichtung 16 auch Informationen über die Solldrehmomente vor, die durch den Verteilmotor 13 ausgeübt werden sollen. Die Steuerung der Kupplungseinrichtung 14, also das Bestromen bzw. das Nichtbestromen des Elektromagneten der Magnetkupplung, erfolgt in Abhängigkeit sowohl des Solldrehmoments für den Verteilmotor 13 als auch der durch den Sensor 15 erfassten Drehzahl der Verteilwelle. Wird der Verteilmotor 13 angesteuert, um ein Solldrehmoment zu·erzeugen, wird die Kupplungseinrichtung 15 stets angesteuert, um die Verbindungswelle und die Verteilwelle zu verbinden. Erfolgt jedoch keine Ansteuerung des Verteilmotors 13 zur Erzeugung eines Drehmoments, so erfolgt die Ansteuerung der Kupplungseinrichtung 14 in Abhängigkeit der durch den Sensor 15 erfassten Drehzahl der Verteilwelle. Ist die erfasste Drehzahl niedriger oder gleich einem Grenzwert, so wird die Kupplungseinrichtung 14 angesteuert, um die Verteilwelle und die Verbindungswelle und damit das Planetengetriebe 12 und den Verteilmotor 13 zu trennen. Übersteigt die Drehzahl den Grenzwert, so wird die Kupplungseinrichtung 14 durch die Steuereinrichtung 16 angesteuert, um die Verbindungswelle und die Verteilwelle und damit das Planetengetriebe 12 und den Verteilmotor 13 zu verbinden. Damit ist es mit dem aktiven Differential 8 drehzahlunabhängig möglich, Drehmomente von der Verteilwelle und damit dem Verteilmotor 13 auf das Planetengetriebe 12 zu übertragen und damit aktiv auf die Verteilung des Drehmoments des Antriebsmotors 9 auf die Abtriebswellen 10, 11 einzuwirken. Zugleich wird jedoch eine Übertragung von Drehmomenten aufgrund von geringen Drehzahlunterschieden auf den Verteilmotor 13 unterbunden.The
In einer alternativen, nicht getrennt gezeigten Ausführungsform eines aktiven Differentials ist es auch möglich, die Kupplungseinrichtung mechanisch so auszubilden, dass eine Drehmomentübertragung nur dann erfolgt, wenn die Verbindungswelle eine gewisse Mindestdrehzahl aufweist, also beispielsweise als Fliehkraftkupplung auszubilden, ergänzend jedoch an der Kupplungseinrichtung eine Sperrvorrichtung vorzusehen, die bei Aktivierung zu einer drehzahlunabhängigen Übertragung von Drehmomenten von der Verteilwelle auf das Planetengetriebe führt. Eine solche Sperrvorrichtung kann als Aktuator ausgeführt sein, der einen Sperrstift betätigt. In diesem Fall kann auf den zusätzlichen Sensor verzichtet werden, da die drehzahlabhängige Steuerung der Kupplungseinrichtung allein durch den mechanischen Aufbau der Kupplungseinrichtung erfolgt. Die Sperreinrichtung der Kupplungseinrichtung kann in diesem Fall durch die Steuereinrichtung genau dann aktiviert werden, wenn der Verteilmotor zur Erzeugung von Drehmomenten angesteuert wird. Damit wird die gleiche Funktion des aktiven Differentials erreicht wie die des zuvor mit Bezug auf
Claims (12)
- Active differential for distributing a drive torque, generated by a drive motor (2, 9, 27), to two output shafts (3, 4, 10, 11) in a controlled manner, comprising a planetary gear (5, 12) for coupling the output shafts (3, 4, 10, 11) to a drive shaft of the drive motor (2, 9, 27) and a distributor shaft (19) of a distributor motor (6, 13), wherein the distribution of the drive torque to the output shafts (3, 4, 10, 11) is dependent on a torque exerted by the distributor motor (6, 13, 27), and wherein the distributor shaft (19) and the planetary gear (5, 12) are coupled by a coupling device (7, 14, 17),
characterised in that
the coupling device (7, 14, 17) transmits a torque from the planetary gear (5, 12) to the distributor shaft (19) only when the speed difference between the speeds of the output shafts (3, 4, 10, 11) exceeds a predetermined limiting value and when a connection condition, which is dependent on an operating mode of the distributor motor, is satisfied. - Differential according to claim 1,
characterised in that
the coupling device (7, 14, 17) is a centrifugal clutch or it comprises a centrifugal clutch. - Differential according to claim 1,
characterised in that
the coupling device (7, 14,17) is a viscous clutch or it comprises a viscous clutch. - Differential according to any one of the preceding claims,
characterised in that
the coupling device (7, 14, 17) comprises a locking device, the coupling device (7, 14, 17) being configured to transmit torques, independently of speed, from the planetary gear (5, 12) to the distributor shaft (19) and from the distributor shaft (19) to the planetary gear (5, 12) when the locking device is activated. - Differential according to claim 4,
characterised in that
the differential (1, 8) comprises a control device (4, 16, 23) which is configured to activate the locking device when the connection condition, which is dependent on an operating mode of the distributor motor (6, 13), has been satisfied. - Differential according to claim 1,
characterised in that
the differential (1, 8) comprises a sensor (15, 22) for detecting the speed difference and a control device (4, 16, 23), wherein the coupling device (7, 14, 17) comprises a coupling element which, in a connected state, transmits a torque from the planetary gear (5, 12) to the distributor shaft (19) and from the distributor shaft (19) to the planetary gear (5, 12) and in a disconnected state, does not transmit a torque, wherein the control device (4, 16, 23) is configured to control the coupling element to change between the connected state and the disconnected state subject to the speed difference. - Differential according to claim 6,
characterised in that
the control device (4, 16, 23) is configured to control the coupling element for changing into, and remaining in the connected state, independently of the speed difference, when a connection condition which depends on an operating mode of the distributor motor (6, 13), is present. - Differential according to claim 6 or 7,
characterised in that
the coupling element is a magnetic coupling, at least one magnet of the magnetic coupling being controllable by the control device (4, 16, 23) to change between the connected state and the disconnected state. - Differential according to claim 6 or 7,
characterised in that
the coupling element comprises at least one coupling actuator which can be controlled by the control device (4, 16, 23) to change between the connected state and the disconnected state and which is configured to move at least one mechanical element of the coupling element. - Differential according to claim 1,
characterised in that
the coupling device (7, 14, 17) comprises at least one free-wheel (20, 21) which couples the distributor shaft (19) and the planetary gear (5, 12), and a locking element which is associated with the free-wheel (20, 21), wherein the free-wheel (20, 21) is locked in a locking position of the locking element, and a free rotation of the distributor shaft (19) relative to the planetary gear (5, 12) in a predetermined relative rotational direction is possible in an open position of the locking element, and wherein the position of the locking element is dependent on the speed difference. - Motor vehicle,
characterised in that
it comprises a differential (1, 8, 28) according to any one of the preceding claims. - Motor vehicle according to claim 11,
characterised in that
each of the output shafts (2, 4, 10, 11) is coupled to a wheel (25, 26) of the motor vehicle (24).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102013019906.9A DE102013019906A1 (en) | 2013-11-28 | 2013-11-28 | Active differential and motor vehicle |
PCT/EP2014/003021 WO2015078560A1 (en) | 2013-11-28 | 2014-11-11 | Active differential and motor vehicle |
Publications (2)
Publication Number | Publication Date |
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EP3074261A1 EP3074261A1 (en) | 2016-10-05 |
EP3074261B1 true EP3074261B1 (en) | 2018-01-10 |
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EP14803043.0A Active EP3074261B1 (en) | 2013-11-28 | 2014-11-11 | Active differential and motor vehicle |
Country Status (5)
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US (1) | US10060523B2 (en) |
EP (1) | EP3074261B1 (en) |
CN (1) | CN105793094B (en) |
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DE102016221819A1 (en) * | 2016-11-08 | 2018-05-09 | Zf Friedrichshafen Ag | Gear arrangement for a vehicle and vehicle with the gear assembly |
DE102017220165B4 (en) | 2017-11-13 | 2019-10-17 | Audi Ag | Drive device for a vehicle axle of a two-lane vehicle |
DE102017220167B3 (en) | 2017-11-13 | 2019-03-21 | Audi Ag | Drive device for a vehicle axle of a two-lane vehicle |
DE102017220166B3 (en) | 2017-11-13 | 2019-03-14 | Audi Ag | Drive device for a vehicle axle of a two-lane vehicle |
DE102017220168B4 (en) | 2017-11-13 | 2019-12-12 | Audi Ag | Drive device for a vehicle axle of a two-lane vehicle |
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DE3542059C1 (en) | 1985-11-28 | 1987-06-04 | Opel Adam Ag | Motor vehicle with main drive axle and switchable drive axle |
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DE10246839A1 (en) | 2002-10-08 | 2004-04-22 | Luk Lamellen Und Kupplungsbau Beteiligungs Kg | Power transmission for hybrid road vehicle can operate as parallel or series hybrid and incorporates two electrical machines and double- plate automatic clutch |
DE10319684A1 (en) * | 2003-05-02 | 2004-12-23 | Zf Friedrichshafen Ag | Distributor differential for motor vehicles |
DE10348959A1 (en) * | 2003-10-22 | 2005-05-25 | Zf Friedrichshafen Ag | Transmission train for vehicle has two planetary gear stages with friction brakes to vary the relative torque distribution to two output shafts especially for two driven axles |
DE102005026874B4 (en) | 2005-06-10 | 2017-05-11 | Volkswagen Ag | Device and method for driving a vehicle |
WO2007118082A2 (en) | 2006-04-03 | 2007-10-18 | Bluwav Systems, Llc | Vehicle power unit designed as retrofittable axle comprising motor, battery and suspension |
US7497796B2 (en) * | 2006-04-12 | 2009-03-03 | General Motors Corporation | Electro-mechanical transmission |
JP5650671B2 (en) * | 2009-03-05 | 2015-01-07 | ボルグワーナー トルクトランスファー システムズ エービー | Torque vectoring device |
DE102009056366A1 (en) | 2009-11-30 | 2011-06-01 | Schaeffler Technologies Gmbh & Co. Kg | Drive system for a motor vehicle |
DE102010045502B4 (en) | 2010-09-15 | 2016-03-24 | Audi Ag | Final drive unit for torque vectoring and torque splitting |
DE102010049550A1 (en) * | 2010-10-25 | 2012-04-26 | Schaeffler Technologies Gmbh & Co. Kg | Drive system for e.g. hybrid car, has planetary gearbox arranged between electric motor and differential gearbox so that sun wheel of planetary gearbox is connectable with electric motor over switchable coupling device |
CN104245456B (en) * | 2012-03-30 | 2016-03-23 | 本田技研工业株式会社 | Vehicle driving apparatus |
DE102013019907B4 (en) * | 2013-11-28 | 2021-02-04 | Audi Ag | Active differential and motor vehicle |
US20150337937A1 (en) * | 2014-05-23 | 2015-11-26 | GM Global Technology Operations LLC | Torque vectoring hybrid transaxle |
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- 2013-11-28 DE DE102013019906.9A patent/DE102013019906A1/en not_active Withdrawn
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EP3074261A1 (en) | 2016-10-05 |
CN105793094A (en) | 2016-07-20 |
US20180186232A1 (en) | 2018-07-05 |
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